| About this Symposium |
| Meeting |
2020 TMS Annual Meeting & Exhibition
|
| Symposium
|
Microstructural Template Consisting of a Face-Centered Cubic Matrix with Ordered Precipitates: Microstructural Evolution and Properties
|
| Sponsorship |
TMS Materials Processing and Manufacturing Division
TMS: Phase Transformations Committee
|
| Organizer(s) |
Rajarshi Banerjee, University of North Texas
Eric A. Lass, University of Tennessee-Knoxville
Ashley E. Paz y Puente, University of Cincinnati
Tushar M. Borkar, Cleveland State University
Keith E. Knipling, Naval Research Laboratory
Sophie Primig, University of New South Wales |
| Scope |
The microstructural template based on a homogeneous distribution of ordered precipitates (such as L12 or DO22) within a face-centered cubic (FCC) matrix, is one of the most prevalent templates used in multiple alloy systems including nickel-base and cobalt-base superalloys, austenitic steels, aluminum-base alloys, and more recently in high entropy alloys, or complex concentrated alloys. These ordered precipitates have been established to be potent strengtheners, both at room and at elevated temperatures, in case of these alloy systems. The present symposium is an attempt to bring together the different communities working on these alloy systems under one umbrella. The areas of interest include, the mechanism of precipitation of the ordered phase within the FCC solid solution matrix, distribution of the alloying elements between matrix and precipitate, other related phase transformations, and the influence of these on the overall microstructural evolution and mechanical properties of these alloys. Both experimental and computational work on these topics are welcome. We strongly encourage researchers working in this field, but often on different alloy systems, to participate in this unique symposium. |
| Abstracts Due |
07/15/2019 |
| Proceedings Plan |
Planned: Supplemental Proceedings volume |